KR20210125240A - cleaning structure for intermediate transfer belt with storage space equipped with shutter - Google Patents

Abstract

A disclosed image forming device comprises: a plurality of photosensitive drums to which a toner image is formed; an intermediate transfer belt to which the toner image is transferred; a cleaning member that comes in contact with an inner surface of the intermediate transfer belt to remove foreign substances; a storage member having a storage part that accommodates the foreign substances; and a shutter movable to an open position for opening the storage part and a closed position for closing the storage part.

Description

TECHNICAL FIELD [0001] Cleaning structure for intermediate transfer belt with storage space equipped with shutter

An electrophotographic image forming apparatus supplies toner to an electrostatic latent image formed on a photosensitive member to form a visible toner image on the photosensitive member, transfers the toner image to a print medium, and fixes the transferred toner image to the print medium.

To print a color image, toner images of different colors are formed on a plurality of photosensitive members. The plurality of photosensitive members are opposed to the plurality of intermediate transfer rollers with the intermediate transfer belt interposed therebetween. The intermediate transfer belt is supported by a plurality of support rollers and circulated. Toner images are transferred from a plurality of photoreceptors to a print medium via an intermediate transfer belt.

Foreign substances such as toner and dust may adhere to the inner surface of the intermediate transfer belt. Foreign matter may adhere to the surfaces of the intermediate transfer roller and the plurality of support rollers. The intermediate transfer belt is supported by a plurality of support rollers including a driving roller and a backup roller and circulated. The running condition of the intermediate transfer belt may affect the quality of the color image and the life of the intermediate transfer belt.

1 is a schematic configuration diagram of an embodiment of an image forming apparatus.
2 is a perspective view of one embodiment of an intermediate transfer belt assembly;
3 and 4 are cross-sectional views of an embodiment of a structure for opening and closing a storage space. FIG. 3 shows a state in which the shutter is positioned in an open position, and FIG. 4 shows a state in which the shutter is positioned in a closed position.
5 and 6 are cross-sectional views of an embodiment of a structure for opening and closing a storage space. FIG. 5 shows a state in which the shutter is positioned in an open position, and FIG. 6 shows a state in which the shutter is positioned in a closed position.
7 is a partially exploded perspective view of one embodiment of an intermediate transfer belt assembly.
8 is a perspective view of one embodiment of a cam member;
9 is a perspective view of an embodiment of a connection structure between a shutter and a first moving member;
10 to 12 are views showing the operation of the print mode switching unit, wherein FIG. 10 shows a standby mode, FIG. 11 shows a black mode, and FIG. 12 shows a color mode, respectively.
13 to 15 are diagrams illustrating an embodiment of a structure for detecting a print mode, wherein FIG. 13 shows a standby mode, FIG. 14 shows a black-and-white mode, and FIG. 15 shows a color mode, respectively.
16 and 17 are diagrams illustrating the operation of the print mode switching unit, wherein FIG. 16 shows a black and white mode and FIG. 17 shows a color mode, respectively.

In the electrophotographic imaging process, foreign substances may be attached to the inner surface of the intermediate transfer belt. Foreign matter may adhere to the outer periphery of the support rollers running the intermediate transfer belt, the intermediate transfer rollers, and the transfer roller. Foreign matter may adhere to the inner surface of the intermediate transfer belt, and to the outer periphery of the support rollers, the intermediate transfer rollers, and the transfer roller. Foreign substances adhering to or adhering to the inner surface of the intermediate transfer belt, the support rollers, the intermediate transfer rollers, and the transfer roller may cause transfer failure and internal contamination of the image forming apparatus. In the image forming apparatus of this embodiment, foreign substances are removed from the inner surface of the intermediate transfer belt, and the removed foreign substances are stored in a storage space. The shutter opens and closes the storage space. The shutter may open the storage space to accommodate the foreign material, and may close the storage space so that the foreign material accommodated in the storage space does not leak to the outside.

Hereinafter, embodiments of the image forming apparatus will be described in detail with reference to the accompanying drawings. In addition, in the present specification and drawings, components having substantially the same functional configuration are denoted by the same reference numerals, and thus redundant descriptions will be omitted.

1 is a schematic configuration diagram of an embodiment of an image forming apparatus. The image forming apparatus 1 of this embodiment prints a color image on the print medium P by the electrophotographic method. Referring to FIG. 1 , a plurality of developing units 10 , an exposure unit 50 , a transfer unit 2 , and a fixing unit 80 are illustrated.

The plurality of developing units 10 includes a plurality of developing units 10Y (10M) for forming toner images of yellow (Y: Yellow), magenta (M: magenta), cyan (C: cyan), and black (K: black) colors. ) (10C) (10K). Cyan (C), magenta (M), yellow (Y), and black (K) color developers may be accommodated in the plurality of developers 10Y, 10M, 10C, and 10K, respectively. The developer can be accommodated in the developer cartridge 20 . For example, a developer of yellow (Y), magenta (M), cyan (C), and black (K) colors may be accommodated in a plurality of developer cartridges 20Y, 20M, 20C, and 20K, respectively. Also, the developer supply unit 30 may supply the plurality of developers 10Y, 10M, 10C, and 10K. The developer supply unit 30 is connected to the developer 10 by a supply pipe 40 . Although not shown in the drawings, the developer supply unit 30 may be omitted, and the supply pipe 40 may directly connect the developer cartridge 20 and the developer 10 . The image forming apparatus 1 further includes a developer cartridge 20 and a developer 10 for accommodating and developing developers of various colors such as light magenta and white in addition to the above-described colors. You may.

Hereinafter, an image forming apparatus 1 including a plurality of developing devices 10Y (10M) (10C) (10K) and a plurality of developer cartridges 20Y (20M) (20C) (20K) will be described, and in particular, Unless otherwise noted, when Y, M, C, and K are attached to the reference numerals, the components for developing the developer of yellow (Y), magenta (M), cyan (C), and black (K) colors, respectively it refers to

The developing device 10 may include a photosensitive drum 14 on which an electrostatic latent image is formed on a surface, and a developing roller 13 for supplying a developer to the electrostatic latent image and developing it into a visible toner image. The photosensitive drum 14 is an example of a photosensitive member on which an electrostatic latent image is formed on a surface thereof, and may include a conductive metal pipe and a photosensitive layer formed on an outer periphery thereof. The charging roller 15 is an example of a charging machine that charges the photosensitive drum 14 to have a uniform surface potential. Instead of the charging roller 15, a charging brush, a corona charging machine, or the like may be employed.

Although not shown in the drawing, the developing device 10 is a charging roller cleaner for removing foreign substances such as developer or dust attached to the charging roller 15, and a developing area where the photosensitive drum 14 and the developing roller 13 face each other. A regulating member or the like for regulating the amount of the developer to be supplied may be further provided. The cleaning member 17 removes the developer remaining on the surface of the photosensitive drum 14 after an intermediate transfer process to be described later. The cleaning member 17 may be, for example, a cleaning blade contacting the surface of the photosensitive drum 14 to scrape off the developer. Although not shown in the drawings, the cleaning member 17 may be a cleaning brush that comes into contact with the surface of the photosensitive drum 14 while being rotated to scrape off the developer.

The developer contained in the developer cartridge 20 , for example, toner, or toner and carrier is supplied to the developer 10 . The developing roller 13 may be positioned to be spaced apart from the photosensitive drum 14 . The distance between the outer peripheral surface of the developing roller 13 and the outer peripheral surface of the photosensitive drum 14 may be, for example, several tens to several hundreds of microns. The developing roller 13 may be a magnetic roller. Also, the developing roller 13 may have a form in which a magnet is disposed in a rotating developing sleeve. In the developer 10, the toner is mixed with the carrier, and the toner is adhered to the surface of the magnetic carrier. The magnetic carrier is attached to the surface of the developing roller 13 and conveyed to the developing area where the photosensitive drum 14 and the developing roller 13 face each other. A regulating member (not shown) regulates the amount of the developer transported to the developing area. Only toner is supplied to the photosensitive drum 14 by the developing bias voltage applied between the developing roller 13 and the photosensitive drum 14, so that the electrostatic latent image formed on the surface of the photosensitive drum 14 is developed into a visible toner image. .

The exposure machine 50 irradiates the photosensitive drum 14 with light modulated corresponding to the image information to form an electrostatic latent image on the photosensitive drum 14 . Examples of the exposure machine 50 include a laser scanning unit (LSU) using a laser diode as a light source or an LED exposure machine using a light emitting diode (LED) as a light source.

The transfer machine 2 transfers the toner image formed on the photosensitive drum 14 to the print medium P. In this embodiment, an intermediate transfer type imprinter is employed. As an example, the transfer machine 2 may include an intermediate transfer belt 60 , an intermediate transfer roller 61 , and a transfer roller 70 .

The intermediate transfer belt 60 temporarily receives the developed toner image on the photosensitive drum 14 of the plurality of developing units 10Y, 10M, 10C, and 10K. The intermediate transfer belt 60 is supported by a plurality of support rollers 62, 63, 64, 65 and circulated. A plurality of intermediate transfer rollers 61 are disposed at positions facing the photosensitive drum 14 of the plurality of developing devices 10Y, 10M, 10C, and 10K with the intermediate transfer belt 60 interposed therebetween. The intermediate transfer roller 61 presses the intermediate transfer belt 60 against the photosensitive drum 14 to form an intermediate transfer nip. An intermediate transfer bias voltage for intermediate transfer of the toner image developed on the photosensitive drum 14 to the intermediate transfer belt 60 is applied to the plurality of intermediate transfer rollers 61 .

The transfer roller 70 is positioned to face the intermediate transfer belt 60 . The transfer roller 70 is positioned opposite to the support roller 62, for example, and is pressed against the intermediate transfer belt 60 to form a transfer nip. A transfer bias voltage for transferring the toner image transferred to the intermediate transfer belt 60 to the print medium P is applied to the transfer roller 70 .

The fixing unit 80 applies heat and/or pressure to the toner image transferred to the print medium P to fix it on the print medium P. The shape of the fixing unit 80 is not limited to the example shown in FIG. 1 .

With the above configuration, the exposure machine 50 scans the plurality of light modulated corresponding to the image information of each color onto the photosensitive drums 14 of the plurality of developing devices 10Y, 10M, 10C, and 10K, and performs photosensitivity. An electrostatic latent image is formed on the drum 14 . The plurality of developers by the Y, M, C, K developers supplied from the plurality of developer cartridges 20Y, 20M, 20C, 20K to the plurality of developers 10Y, 10M, 10C, and 10K The electrostatic latent image of the photosensitive drum 14 of (10Y) (10M) (10C) (10K) is developed into a visible toner image. The developed toner images are sequentially intermediately transferred to an intermediate transfer belt 60 . The printing medium P loaded on the feeding means 90 is conveyed along the feeding path 91 and conveyed between the transfer roller 70 and the intermediate transfer belt 60 . The toner image intermediately transferred onto the intermediate transfer belt 60 by the transfer bias voltage applied to the transfer roller 70 is transferred to the print medium P. As shown in FIG. When the print medium P passes through the fixing unit 80, the toner image is fixed to the print medium P by heat and pressure. The fixed print medium P is discharged by the discharge roller 92,

As described above, the intermediate transfer belt 60 is supported by the supporting rollers 62, 63, 64, and 65 and circulated. The support rollers 62 and 65 may be a driving roller and a backup roller that are spaced apart in the running direction D of the intermediate transfer belt 60 to support and run the intermediate transfer belt 60 . The backup roller 65 may be a tension roller positioned inside the intermediate transfer belt 60 to apply tension to the intermediate transfer belt 60 .

The belt cleaner 67 removes foreign substances from the outer surface of the intermediate transfer belt 60 . Foreign substances may include, for example, toner remaining on the outer surface of the intermediate transfer belt 60 after the toner image is transferred to the print medium P, and dust attached to the outer surface of the intermediate transfer belt 60 . can The foreign material removed from the outer surface of the intermediate transfer belt 60 is stored in the foreign material storage unit 66 , and may be transported and stored by a replaceable foreign material receiving member (not shown) by a conveying means (not shown).

In the image forming process, foreign substances may be attached to the inner surface of the intermediate transfer belt 60 . Foreign substances may include toner scattered during the image forming process, dust introduced into the image forming apparatus 1 , and the like. If the foreign material is continuously attached to the inner surface of the intermediate transfer belt 60, it may be firmly fixed. In addition, foreign substances may move from the inner surface of the intermediate transfer belt 60 to the surfaces of the intermediate transfer rollers 61 and the support rollers 62, 63, 64, and 65 and adhere thereto. The foreign material acts as an electrical resistor during the transfer process. When the thickness of the foreign material layer adhered to the inner surface of the intermediate transfer belt 60 and the surface of the intermediate transfer rollers 61 and the support rollers 62, 63, 64 and 65 becomes thick, the foreign material layer becomes electrically Acting as a resistor, the transfer performance from the photosensitive drum 14 to the intermediate transfer belt 60 and the transfer performance from the intermediate transfer belt 60 to the print medium P may deteriorate. For example, in a portion on a thick foreign material layer, transfer of the toner image may be insufficient, resulting in partial leakage of the image or a transfer defect in which the image density is partially blurred. Also, the inner surface of the intermediate transfer belt 60 may be damaged due to the thick foreign material layer, and the intermediate transfer belt 60 may be deformed. Deformation of the intermediate transfer belt 60 may cause a streak-shaped image density defect in the running direction D of the intermediate transfer belt 60 .

A method of increasing the elastic modulus of the intermediate transfer belt 60 to reduce deformation of the intermediate transfer belt 60 due to foreign substances may be considered. However, the intermediate transfer belt 60 having a high elastic modulus tends to be brittle, so that cracks are likely to occur in the intermediate transfer belt 60, and the life of the intermediate transfer belt 60 may be reduced. can A method of employing an elastic rubber roller as the supporting rollers 62, 63, 64 and 65 may be considered. However, the elastic rubber roller is more expensive than the metal roller, and it may be disadvantageous to the running stability of the intermediate transfer belt 60 .

In the image forming apparatus 1 of this embodiment, foreign matter is removed from the inner surface of the intermediate transfer belt 60 . The removed foreign material is stored in the storage space. The storage space is opened and closed. The storage space may be opened to accommodate the foreign substances removed from the inner surface of the intermediate transfer belt 60 , and the storage space may be closed so that the foreign substances stored in the storage space do not scatter into the image forming apparatus 1 . According to this configuration, since the storage space is closed after the removed foreign substances are accommodated in the storage space, contamination of the intermediate transfer belt 60 by foreign substances in the process of replacing or repairing the intermediate transfer belt 60 and the image forming apparatus ( 1) The contamination of the inside can be prevented.

Hereinafter, embodiments of the structure for opening and closing the storage space will be described. 2 is a perspective view of one embodiment of an intermediate transfer belt assembly; 3 and 4 are cross-sectional views of an embodiment of a structure for opening and closing a storage space. FIG. 3 shows a state in which the shutter 130 is positioned in an open position, and FIG. 4 shows a state in which the shutter 130 is positioned in a closed position. show

1 to 4 , an embodiment of the image forming apparatus 1 includes a plurality of photosensitive drums 14 on which toner images are formed, an intermediate transfer belt 60 on which toner images are transferred, and an intermediate transfer belt ( The storage member 120 having a cleaning member 110 that comes in contact with the inner surface of 60 to remove foreign substances, a storage unit 121 for accommodating foreign substances, and an open position and a storage unit for opening the storage unit 121 ( It may include a shutter 130 movable to a closed position to close the 121 .

1 and 2, a plurality of intermediate transfer rollers 61 and support rollers 62, 63, 64 and 65 are provided with a first frame 101 and a second frame spaced apart from each other in the axial direction. 2 is supported so as to be rotatably on the frame (102). As described above, the support roller 65 may be a tension roller that applies tension to the intermediate transfer belt 60 . As an embodiment, the support roller 65 is movably supported on the first frame 101 and the second frame 102 in the running direction D of the intermediate transfer belt 60 . The spring 103 applies an elastic force to the support roller 65 in a direction away from the support roller 62 . Tension is applied to the intermediate transfer belt 60 by the elastic force of the spring 103 . The intermediate transfer belt 60 has a transfer area to which the intermediate transfer rollers 61 are in contact, and a non-transfer area opposite to the transfer area.

The cleaning member 110 is located inside the intermediate transfer belt 60 and is in contact with the inner surface of the intermediate transfer belt 60 . The cleaning member 110 is in contact with the intermediate transfer belt 60 in the non-transfer area. The cleaning member 110 may be, for example, a brush extending in the axial direction, that is, in the width direction of the intermediate transfer belt 60 . As the intermediate transfer belt 60 travels, foreign substances adhering to the inner surface of the intermediate transfer belt 60 may be scratched by the cleaning member 110 and separated from the inner surface of the intermediate transfer belt 60 . The cleaning member 110 in the form of a brush positioned at a fixed position and in contact with the inner surface of the intermediate transfer belt 60 does not rotate compared to the rotating brush roller, so a driving structure is unnecessary and the intermediate transfer belt 60 is not rotated. It is advantageous in that it does not cause vibration of the , and the possibility of re-contamination of the intermediate transfer belt 60 by the removed foreign material is low because it is easy to accommodate the removed foreign material.

The storage member 120 is located inside the intermediate transfer belt 60 , and the cleaning member 110 is located below the cleaning member 110 . The storage member 120 extends in the width direction of the intermediate transfer belt 60 and may be supported by the first frame 101 and the second frame 102 . The storage member 120 includes a storage unit (first storage unit) 121 for accommodating foreign substances. In this embodiment, the storage unit 121 is located on the downstream side of the cleaning member 110 with respect to the running direction D of the intermediate transfer belt 60 . Here, the running direction D is the running direction of the non-transfer portion of the intermediate transfer belt 60 . With such a configuration, foreign substances adhering to the inner surface of the intermediate transfer belt 60 are separated from the inner surface of the intermediate transfer belt 60 by weakening the adhesion to the intermediate transfer belt 60 by the cleaning member 110 . . The separated foreign material falls and is accommodated in the storage unit 121 .

The shutter 130 opens and closes the storage unit 121 . In one embodiment, the shutter 130 is located inside the intermediate transfer belt 60 between the non-transfer area of the intermediate transfer belt 60 and the storage member 120 . The shutter 130 is moved to an open position for opening the storage unit 121 and a closed position for closing the storage unit 121 . The shutter 130 may be supported on the first frame 101 and the second frame 102 so as to be movable in an open position and a closed position. The shutter 130 may be supported by the storage member 120 to be movable in an open position and a closed position. For example, an opening (first opening) 131 is provided in the shutter 130 . As shown in FIG. 3 , when the shutter 130 is positioned in the open position, the opening 131 is aligned with the storage 121 to open the storage 121 , and is removed from the inner surface of the intermediate transfer belt 60 . foreign substances may be accommodated in the storage unit 121 . As shown in FIG. 4 , when the shutter 130 is positioned in the closed position, the opening 131 is misaligned with the storage unit 121 , and the storage unit 121 is closed, and the foreign material contained in the storage unit 121 is leaked. This can be prevented.

The image forming apparatus 1 may further include a flexible sealing member 140 . The sealing member 140 is in contact with the inner surface of the intermediate transfer belt 60 on the downstream side of the storage unit 121 with respect to the running direction D of the intermediate transfer belt 60 . The sealing member 140 may be implemented by, for example, a flexible polymer film having elasticity, a sponge, felt, or the like. The sealing member 140 is in elastic contact with the inner surface of the intermediate transfer belt 60 . According to such a configuration, since the cleaning member 110 and the sealing member 140 are located on the upstream side of the storage unit 121 and the sealing member 140 on the downstream side of the storage unit 121 as a reference in the traveling direction D, the inner surface of the intermediate transfer belt 60 is Foreign substances removed from the surface may be accommodated in the storage unit 121 without being scattered into the image forming apparatus 1 .

The cleaning member 110 and the sealing member 140 may be installed in the shutter 130 . For example, the cleaning member 110 and the sealing member 140 may be installed adjacent to the upstream edge and the downstream edge of the opening 131 , respectively. With this configuration, it is possible to effectively prevent foreign substances removed from the inner surface of the intermediate transfer belt 60 from scattering into the image forming apparatus 1 .

5 and 6 are cross-sectional views of an embodiment of a structure for opening and closing a storage space. FIG. 5 shows a state in which the shutter 130 is positioned in an open position, and FIG. 6 shows a state in which the shutter 130 is positioned in a closed position. show 5 and 6 , the storage member 120 includes a first storage unit 121 positioned on the downstream side of the cleaning member 110 with respect to the traveling direction D of the intermediate transfer belt 60 and A second storage unit 122 located on the upstream side may be provided. With this configuration, the foreign substances pushed upstream of the cleaning member 110 among the foreign substances separated from the inner surface of the intermediate transfer belt 60 by the cleaning member 110 are accommodated in the second storage unit 122, The foreign material transported to the downstream side of the cleaning member 110 may be accommodated in the first storage unit 121 .

The shutter 130 may open and close the first storage unit 121 and the second storage unit 122 . As an embodiment, the shutter 130 is provided with a first opening 131 and a second opening 132 . The first opening 131 and the second opening 132 are respectively located on the downstream side and the upstream side of the cleaning member 110 . 5, when the shutter 130 is positioned in the open position, the first opening 131 and the second opening 132 are aligned with the first storage unit 121 and the second storage unit 122, respectively. The first storage unit 121 and the second storage unit 122 are opened, and foreign substances removed from the inner surface of the intermediate transfer belt 60 are accommodated in the first storage unit 121 and the second storage unit 122 . can be As shown in FIG. 6 , when the shutter 130 is positioned in the closed position, the first opening 131 and the second opening 132 and the first storage unit 121 and the second storage unit 122 are displaced from each other. The first storage unit 121 and the second storage unit 122 are closed, and leakage of foreign substances accommodated in the first storage unit 121 and the second storage unit 122 may be prevented.

The sealing member 140 elastically contacts the inner surface of the intermediate transfer belt 60 on the downstream side of the first storage unit 121 based on the running direction D of the intermediate transfer belt 60 . For example, the sealing member 140 may be installed adjacent to the downstream edge of the first opening 131 .

The shutter 130 may selectively move the shutter 130 to an open position and a closed position according to a printing mode. For example, the print mode may include a standby mode in which printing is not performed, a color mode in which color printing is performed, and a black and white mode in which black and white printing is performed.

The shutter 130 may be moved to an open position and a closed position by an actuator not shown, for example, a motor, a solenoid, or the like. As an embodiment, in the actuator, foreign substances separated from the inner surface of the intermediate transfer belt 60 in the color mode and the black-and-white mode are separated from the first storage unit 121 or the first storage unit 121 and the second storage unit ( The shutter 130 may be positioned in the open position to be accommodated in the 122), and foreign substances accommodated in the first storage unit 121 or the first storage unit 121 and the second storage unit 122 in the standby mode. The shutter 130 may be positioned in a closed position so that it does not scatter. As an example, the actuator may position the shutter 130 in the open position when in color mode, and position the shutter 130 in the closed position when in black and white mode and in standby mode.

The plurality of intermediate transfer rollers 61 may include a first intermediate transfer roller 61K for black-and-white printing and a plurality of second intermediate transfer rollers 61Y, 61M, and 61C for color printing. The first intermediate transfer roller 61K faces the photosensitive drum 14K. The plurality of second intermediate transfer rollers 61Y, 61M, and 61C are opposed to the photosensitive drums 14Y, 14M, and 14C, respectively. The plurality of intermediate transfer rollers 61 may be positioned at intermediate transfer positions for pressing the intermediate transfer belt 60 to contact the corresponding plurality of photosensitive drums 14 to form an intermediate transfer nip. Deformation of the plurality of intermediate transfer rollers 61, damage to the surfaces of the plurality of photosensitive drums 14 and the surfaces of the intermediate transfer belt 60 due to friction, and damage to the photosensitive layers of the plurality of photosensitive drums 14 due to static electricity In order to prevent the like, the intermediate transfer belt 60 may be spaced apart from at least one of the plurality of photosensitive drums 14 depending on the printing mode.

To this end, at least one of the plurality of intermediate transfer rollers 61 may be moved to a release position for releasing the intermediate transfer nip according to the printing mode. For example, in the color mode, all of the plurality of intermediate transfer rollers 61 may be positioned at the intermediate transfer position. In the black-and-white mode, the first intermediate transfer roller 61K may be positioned at the intermediate transfer position, and the plurality of intermediate transfer rollers 61Y, 61M, and 61C may be positioned at the release position. Thereby, the intermediate transfer belt 60 is spaced apart from the photosensitive drums 14Y, 14M, and 14C which are not used for printing. Accordingly, the possibility of damage to the intermediate transfer belt 60 and the photosensitive drums 14Y, 14M, and 14C can be reduced, and the possibility of deformation of the second intermediate transfer rollers 61Y, 61M, and 61C can be reduced. In the standby mode, all of the plurality of intermediate transfer rollers 61 can be positioned in the release position. Thereby, the risk of damage to the intermediate transfer belt 60 and the plurality of photosensitive drums 14 and the possibility of deformation of the plurality of intermediate transfer rollers 61 can be reduced.

The shutter 130 may be linked with movement of at least one of the plurality of intermediate transfer rollers 61 . In one embodiment, the plurality of intermediate transfer rollers 61 are positioned to face the plurality of photosensitive drums 14 with the intermediate transfer belt 60 interposed therebetween, and press the intermediate transfer belt 60 to press the intermediate transfer belt 60 to It may be positioned in an intermediate transfer position that contacts the photosensitive drum 14 to form an intermediate transfer nip. At least one of the plurality of intermediate transfer rollers 61 may be moved to a release position for releasing the intermediate transfer nip. The shutter 130 may be moved to the open position and the closed position in association with movement to the intermediate transfer position and the release position of at least one of the plurality of intermediate transfer rollers 61 . As an embodiment, the image forming apparatus 1 presses at least one of the plurality of intermediate transfer rollers 61 to contact the corresponding photosensitive drum 14 by pressing the intermediate transfer belt 60 according to the printing mode, thereby forming an intermediate and a printing mode switching unit for switching between an intermediate transfer position for forming the transfer nip and a release position for releasing the intermediate transfer nip. The shutter 130 may be moved to an open position and a closed position by the print mode switching unit.

Hereinafter, embodiments of a structure for moving the shutter 130 to an open position and a closed position will be described.

7 is a partially exploded perspective view of one embodiment of an intermediate transfer belt assembly. 8 is a perspective view of one embodiment of the cam member 230 . 9 is a perspective view of an embodiment of a connection structure between the shutter 130 and the first moving member 210 . 10 to 12 are views showing the operation of the print mode switching unit, wherein FIG. 10 shows a standby mode, FIG. 11 shows a black mode, and FIG. 12 shows a color mode, respectively. 10 to 12 , the second moving member 220 is illustrated separately from the first moving member 210 for convenience of description.

7 and 8, in the present embodiment, the shutter 130 is moved to the open position and the closed position in association with the movement of the first intermediate transfer roller 61K to the intermediate transfer position and the release position. In other words, the print mode switching unit includes the cam member 230, the first moving member 210 connected to the cam member 230 to move the first intermediate transfer roller 61K, and the plurality of second intermediate transfer rollers 61Y. ) (61M) and a second moving member 220 for moving (61C), the shutter 130 is connected to the first moving member 210 is moved to the open position and the closed position.

The plurality of holders 150 includes a hinge shaft 151 and first and second arms 152 and 153 extending in different directions from the hinge shaft 151 . The plurality of holders 150 are rotatably supported on the first frame 101 about the hinge shaft 151 . One end of the plurality of intermediate transfer rollers 61 is rotatably supported by the first arms 152 of the plurality of holders 150 . The plurality of holders 150 may be rotated about the hinge shaft 151 to move the plurality of intermediate transfer rollers 61 to the intermediate transfer position and the release position. The plurality of holders 150 are elastically biased by the plurality of elastic members 160 to rotate in the direction of positioning the plurality of intermediate transfer rollers 61 at the intermediate transfer position. Although not shown in the drawings, the other ends of the plurality of intermediate transfer rollers 61 are movably supported by the second frame 102 to the intermediate transfer position and the release position by the same structure as described above. A protrusion 154 protruding in the axial direction is provided on the second arm 153 of the plurality of holders 150 .

As an embodiment, the print mode switching unit includes a cam member 230 , a first moving member 210 connected to the cam member 230 to move the first intermediate transfer roller 61K, and a plurality of second intermediate transfers. A second moving member 220 for moving the rollers 61Y, 61M, and 61C may be included.

Guide projections 191 and 192 are provided on the first frame 101 . Guide slots 211 and 212 extending in the traveling direction D are provided in the first moving member 210 . The first moving member 210 is coupled to the first frame 101 so that the guide protrusions 191 and 192 are respectively inserted into the guide slots 211 and 212 . Accordingly, the first moving member 210 is supported by the first frame 101 to be movable in the traveling direction D of the intermediate transfer belt 60 . The first moving member 210 is provided with an insertion portion 213 into which the protrusion 154 provided on the second arm 153 of the holder 150K on which the first intermediate transfer roller 61K is supported is inserted. According to this configuration, when the first moving member 210 moves in the traveling direction D or in the opposite direction, the insert 213 pushes or pulls the protrusion 154 of the holder 150K. Then, the holder 150K may be rotated about the hinge shaft 151 to move the first intermediate transfer roller 61K to the intermediate transfer position and the release position.

Guide protrusions 193 , 194 , and 195 are provided on the first frame 101 . Guide slots 221 , 222 , 223 , 224 extending in the traveling direction D are provided in the second moving member 220 . The second moving member 220 is coupled to the first frame 101 so that the guide projections 192, 193, 194, and 195 are respectively inserted into the guide slots 221, 222, 223 and 224. . Accordingly, the second moving member 220 is supported by the first frame 101 to be movable in the traveling direction D of the intermediate transfer belt 60 . On the second moving member 220, a plurality of second intermediate transfer rollers 61Y, 61M, and 61C are supported protrusions ( Insertion portions 225 , 226 , 227 into which 154 is inserted are provided. By such a configuration, when the second moving member 220 is moved in the traveling direction (D), the insertion portions 225, 226, 227 are the protrusions of the plurality of holders 150Y, 150M and 150C ( 154) to push or pull. Then, the plurality of holders 150Y, 150M, and 150C are respectively rotated about the hinge shaft 151 to move the plurality of second intermediate transfer rollers 61Y, 61M, and 61C to the intermediate transfer position and the release position. can be moved

The guide projections 191, 192, and 195 have a separation preventing member ( 196) can be concluded.

The first moving member 210 and the second moving member 220 may be moved in the driving direction D by the cam member 230 . For example, the camshaft 240 is rotatably supported by the first frame 101 and the second frame 102 . The camshaft 240 is rotated by, for example, a motor (not shown). A cam member 230 is coupled to one end of the cam shaft 240 . The cam member 230 includes a first cam part 231 and a second cam part 232 . The first cam part 231 and the second cam part 232 are positioned to have a step difference in the axial direction. In this embodiment, the second cam part 232 is positioned outside the first cam part 231 . The first cam part 231 is inserted into the first cam slot 214 provided in the first moving member 210 . The second cam part 232 is inserted into the second cam slot 228 provided in the second moving member 220 .

The shutter 130 is connected to the first moving member 210 . As an embodiment, referring to FIG. 9 , the shutter 130 is provided with a first connection part 133 . The first moving member 210 is provided with a second connecting portion 215 connected to the first connecting portion 133 . As an embodiment, the first connection part 133 may have a protrusion shape protruding from one end of the shutter 130 in the axial direction, and the second connection part 215 may have a groove shape into which the first connection part 133 is inserted. .

Although not shown in the drawings, the other ends of the plurality of intermediate transfer rollers 61 are movably supported by the second frame 102 to the intermediate transfer position and the release position by the same structure as described above. A protrusion 154 protruding in the axial direction is provided on the second arm 153 of the plurality of holders 150 . Although not shown in the drawings, the first moving member 210 and the second moving member 220 are also provided in the second frame 102 , and the cam member 230 is provided at the other end of the cam shaft 240 . . The other end of the shutter 130 and the first moving member 210 may be connected by first and second connecting portions 133 and 215 .

Referring to FIG. 10 , the image forming apparatus 1 is in a standby mode. The first cam part 231 is inserted into the first cam slot 214 of the first moving member 210 to move the sidewall 214a of the first cam slot 214 in the direction DR opposite to the driving direction D. push The first moving member 210 is moved in the opposite direction DR. The insertion part 213 pushes the protrusion 154 of the holder 150K in the opposite direction DR, and the holder 150K is rotated in the A1 direction about the hinge shaft 151 . The first intermediate transfer roller 61K is moved to the release position. The second cam part 232 pushes the sidewall 228a of the second cam slot 228 in a direction DR opposite to the driving direction D. The second moving member 220 is moved in the opposite direction DR. The inserts 225, 226, and 227 push the protrusions 154 of the holders 150Y, 150M, and 150C in the opposite direction DR, and the holders 150Y, 150M, and 150C are hinge shafts ( 151) is rotated in the A1 direction, that is, in a direction opposite to the elastic force of the elastic member 160 . The plurality of second intermediate transfer rollers 61Y, 61M, and 61C are moved to the release position.

4, 6, 8, and 10, as shown in FIG. 10, in the standby mode, the first cam part 231 moves the sidewall 214a of the first cam slot 214 in the driving direction. (D) is pushed in the opposite direction DR to move the first moving member 210 in the opposite direction DR. Then, the shutter 130 is also moved in the opposite direction DR to reach the closed position. 4, 6, and 10 , the opening 131 or the first opening 131 and the second opening 132 is formed between the storage unit 121 or the first storage unit 121 and the second opening 132 . It is out of alignment with the storage unit 122 . Accordingly, the storage unit 121 or the first storage unit 121 and the second storage unit 122 are closed by the shutter 130 , and the storage unit 121 or the first storage unit 121 and the second storage unit are closed. Foreign substances inside the part 122 do not scatter to the outside.

Referring to FIG. 11 , the image forming apparatus 1 is in a black and white mode. In order to switch the image forming apparatus 1 from the standby mode to the black and white mode, the print mode switching unit rotates the cam member 230 by a first angle in the state shown in FIG. 10 . For example, the first angle may be an angle at which the first cam portion 231 is spaced apart from the sidewall 214a of the first cam slot 214 . The first moving member 210 is in a state capable of being moved in the traveling direction (D). As the cam member 230 is rotated by the first angle, the holder 150K is rotated in the A2 direction by the elastic force of the elastic member 160 . The first intermediate transfer roller 61K is moved to the intermediate transfer position. The protrusion 154 pushes the insertion part 213 in the traveling direction D. The first moving member 210 is moved in the traveling direction (D). Even when the cam member 230 is rotated by the first angle, the second cam portion 232 is maintained in contact with the sidewall 228a of the second cam slot 228 . Accordingly, the second moving member 220 is held in the position shown in Fig. 10, and the plurality of second intermediate transfer rollers 61Y, 61M, and 61C are held in the releasing position. In this state, black and white printing is possible.

3, 5, 8, and 11 , the first moving member 210 moves in the driving direction D when the standby mode is switched to the black and white mode. The second connection part 215 pushes the first connection part 133 in the driving direction (D). The shutter 130 is moved in the traveling direction D to be positioned in the open position. The opening 131 or the first opening 131 and the second opening 132 are aligned with the storage unit 121 or the first storage unit 121 and the second storage unit 122 . Accordingly, the storage unit 121 or the first storage unit 121 and the second storage unit 122 are opened and separated from the inner surface of the intermediate transfer belt 60 by the cleaning member 110 during the black-and-white printing process. Foreign substances may be accommodated in the storage unit 121 or the first storage unit 121 and the second storage unit 122 .

Referring to FIG. 12 , the image forming apparatus 1 is in a color mode. In order to switch the image forming apparatus 1 from the black and white mode to the color mode, the print mode switching unit rotates the cam member 230 by a second angle in the state shown in FIG. 11 . For example, the second angle is an angle at which the second cam part 232 is in contact with the side wall ( FIG. 8 : 228b ) of the second cam slot 228 in the traveling direction D side. While the cam member 230 is rotated by the second angle, the second cam 232 pushes the sidewall 228b of the second cam slot 228 in the traveling direction D in the traveling direction D. The second moving member 220 is moved in the traveling direction (D). The plurality of holders 150Y, 150M, and 150C are rotated in the A2 direction by the elastic force of the elastic member 160 . The plurality of second intermediate transfer rollers 61Y, 61M, and 61C are moved from the release position to the intermediate transfer position. Even when the cam member 230 is rotated by the second angle, the first cam portion 231 is maintained spaced apart from the sidewall 214a of the first cam slot 214 . Accordingly, the first moving member 210 is held at the position shown in Fig. 11, and the first intermediate transfer roller 61K is held at the intermediate transfer position. In this state, color printing is possible.

Since the first moving member 210 is held in the position shown in Fig. 11, the shutter 130 is kept in the open position, and from the inner surface of the intermediate transfer belt 60 by the cleaning member 110 in the color printing process. The separated foreign material may be accommodated in the storage unit 121 or the first storage unit 121 and the second storage unit 122 .

In this way, it is possible to move the shutter 130 to the open position and the closed position in association with the movement of the first intermediate transfer roller 61K to the intermediate transfer position and the release position. In addition, the shutter 130 can be moved to the open position and the closed position by using the print mode switching unit for moving the first intermediate transfer roller 61K to the intermediate transfer position and the release position. Accordingly, a separate driving unit for moving the shutter 130 to the open position and the closed position is unnecessary, so that the material cost of the image forming apparatus 1 can be reduced.

The print mode can be detected by various structures. For example, referring to FIG. 7 , the mode cam 250 is coupled to the cam shaft 240 . The mode cam 250 is detected by the sensor 260 . 13 to 15 are diagrams showing an embodiment of a structure for detecting a print mode, wherein FIG. 13 shows a standby mode, FIG. 14 shows a black and white mode, and FIG. 15 shows a color mode, respectively.

13 to 15 , the mode cam 250 may include a first mode plate 251 , a second mode plate 252 , and a third mode plate 253 . The first mode plate 251 , the second mode plate 252 , and the third mode plate 253 are spaced apart from each other by a predetermined angle. The sensor 260 may be, for example, an optical sensor including a light emitting unit and a light receiving unit. When the first mode plate 251, the second mode plate 252, and the third mode plate 253 are positioned between the light emitting part and the light receiving part, no light is detected by the light receiving part, and the first mode plate 251, the first mode plate 251, the second mode plate 253 When the space between the two-mode plate 252 and the third mode plate 253 is positioned between the light emitting unit and the light receiving unit, light is detected by the light receiving unit. The sensor 260 generates, for example, a detection signal proportional to the amount of light when light is detected.

For example, the detection signal of the sensor 260 when light is detected is referred to as high (H), and the detection signal of the sensor 260 when light is not detected is referred to as low (L). As shown in FIG. 13 , after the first mode plate 251 is detected by the sensor 260 and rotated by an angle C1, that is, the detection signal changes from low (L) to high (H) and the angle ( After the rotation time of C1) elapses, the rotation of the mode cam 250 is stopped. This state is standby mode. In the state shown in FIG. 13 , the mode cam 250 is rotated clockwise. The detection signal is changed from high (H) to low (L) by the sensor 260 and is changed to high (H) again after being maintained in the low (L) state for a rotation time of a predetermined angle (C3). This state is the state detected by the second mode plate 252 . After the predetermined angle C1 is rotated in this state, the rotation of the mode cam 250 is stopped. This state is the state shown in FIG. 14, and is a black-and-white mode. In the state shown in FIG. 14 , the mode cam 250 is rotated clockwise. The detection signal is changed from high (H) to low (L) by the sensor 260 and is changed to high (H) again after being maintained in the low (L) state for a rotation time of a predetermined angle (C4). This state is the state detected by the third mode plate 253 . After the predetermined angle C1 is rotated in this state, the rotation of the mode cam 250 is stopped. This state is the state shown in FIG. 15, and is a color mode. Angles C2, C3, C4 are different. Accordingly, it is possible to determine whether the first mode plate 251 , the second mode plate 252 , and the third mode plate 253 are detected from the holding time of the low (L) signal.

In the case of the medium or low speed image forming apparatus 1, since the life of the intermediate transfer belt 60 or the photosensitive drum 14 is relatively short, the print mode may include a black and white mode and a color mode. It may be in standby mode. In this case, the first intermediate transfer roller 61K may be located at the intermediate transfer position. The plurality of second intermediate transfer rollers 61Y, 61M, and 61C can be moved to the intermediate transfer position and the release position. The shutter 130 can be moved to the open position and the closed position in association with the movement of the plurality of second intermediate transfer rollers 61Y, 61M, and 61C to the intermediate transfer position and the release position.

16 and 17 are diagrams illustrating the operation of the print mode switching unit, wherein FIG. 16 shows a black-and-white mode and FIG. 17 shows a color mode, respectively. 16 and 17 , the print mode switching unit includes a cam member 330 and a moving member connected to the cam member 330 to move the plurality of second intermediate transfer rollers 61Y, 61M, and 61C ( 300) is included. The shutter 130 may be connected to the moving member 300 to move to an open position and a closed position.

Compared to the above-described image forming apparatus 1 , the image forming apparatus 1 of the present embodiment has a point in which the first moving member 210 is omitted and the second connection part 133 of the shutter 130 is connected to the image forming apparatus 1 . The connecting portion 215 is provided on the second moving member 220 for moving the plurality of second intermediate transfer rollers 61Y, 61M, and 61C, and the first cam portion 231 is omitted from the cam member 230 . There is a difference in that Hereinafter, the cam member 230 in which the first cam part 231 is omitted is referred to as a cam member 330 , and the second moving member 220 provided with the second connection part 215 is referred to as a moving member 300 . The second cam part 232 is called a cam part 332 , and the second cam slot 228 is called a cam slot 328 .

Referring to FIG. 16 , the image forming apparatus 1 is in a black and white mode. The cam part 332 is inserted into the cam slot 328 of the moving member 300 to push the side wall 328a of the cam slot 328 in a direction DR opposite to the traveling direction D. The moving member 300 is moved in the opposite direction DR. The inserts 225, 226, and 227 push the protrusions 154 of the holders 150Y, 150M, and 150C in the opposite direction DR, and the holders 150Y, 150M, and 150C are hinge shafts ( 151) is rotated in the A1 direction, that is, in a direction opposite to the elastic force of the elastic member 160 . The plurality of second intermediate transfer rollers 61Y, 61M, and 61C are moved to the release position. Since the first intermediate transfer roller 61K is located at the intermediate transfer position, black-and-white printing is possible in this state.

The shutter 130 is connected to the movable member 300 by the first connection part 133 and the second connection part 215 . Accordingly, in the black-and-white mode, as the moving member 300 moves in the opposite direction DR, the shutter 130 also moves in the opposite direction DR to reach the closed position. As shown in FIGS. 4, 6, and 16 , the opening 131 or the first opening 131 and the second opening 132 is formed between the storage unit 121 or the first storage unit 121 and the second opening 132 . It is out of alignment with the storage unit 122 . Accordingly, the storage unit 121 or the first storage unit 121 and the second storage unit 122 are closed by the shutter 130 , and the storage unit 121 or the first storage unit 121 and the second storage unit are closed. Foreign substances inside the part 122 do not scatter to the outside.

Referring to FIG. 17 , the image forming apparatus 1 is in a color mode. In order to switch the image forming apparatus 1 from the black and white mode to the color mode, the print mode switching unit rotates the cam member 230 by a predetermined angle, for example, about 180 degrees in the state shown in FIG. 16 . While the cam member 330 is rotated by about 180 degrees, the cam part 332 pushes the side wall 328b of the cam slot 328 in the running direction D in the running direction D. The moving member 300 is moved in the traveling direction (D). The plurality of holders 150Y, 150M, and 150C are rotated in the A2 direction by the elastic force of the elastic member 160 . The plurality of second intermediate transfer rollers 61Y, 61M, and 61C are moved from the release position to the intermediate transfer position. The first intermediate transfer roller 16K is located at the intermediate transfer position. In this state, color printing is possible.

Since the moving member 300 is moved in the traveling direction D, the shutter 130 is also moved in the traveling direction D to reach the open position. 3, 5, and 17 , the opening 131 or the first opening 131 and the second opening 132 is formed between the storage unit 121 or the first storage unit 121 and the second opening 132 . It is aligned with the storage unit 122 . Accordingly, the storage unit 121 or the first storage unit 121 and the second storage unit 122 are opened and separated from the inner surface of the intermediate transfer belt 60 by the cleaning member 110 during the color printing process. Foreign substances may be accommodated in the storage unit 121 or the first storage unit 121 and the second storage unit 122 .

In this way, it is possible to move the shutter 130 to the open position and the closed position in association with the movement of the second intermediate transfer rollers 61Y, 61M, and 61C to the intermediate transfer position and the release position. In addition, the shutter 130 can be moved to the open position and the closed position by using the print mode switching unit for moving the second intermediate transfer rollers 61Y, 61M, and 61C to the intermediate transfer position and the released position. Accordingly, a separate driving unit for moving the shutter 130 to the open position and the closed position is unnecessary, so that the material cost of the image forming apparatus 1 can be reduced.

Although the present disclosure has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those of ordinary skill in the art to which various modifications and equivalent other embodiments are possible. will understand Accordingly, the true technical protection scope of the present disclosure should be defined by the following claims.

Claims (15)

a plurality of photosensitive drums on which toner images are formed;
an intermediate transfer belt to which the toner image is transferred;
a cleaning member contacting the inner surface of the intermediate transfer belt to remove foreign substances;
a storage member having a storage unit for accommodating the foreign material;
and a shutter movable to an open position for opening the storage unit and a closed position for closing the storage unit. According to claim 1,
a plurality of intermediate transfer positions positioned to face the plurality of photosensitive drums with the intermediate transfer belt interposed therebetween, the intermediate transfer belt is pressed into contact with the plurality of photosensitive drums to form an intermediate transfer nip Intermediate transfer roller;
at least one of the plurality of intermediate transfer rollers is movable to a release position that releases the intermediate transfer nip;
and the shutter is moved to the open position and the closed position in association with movement to the intermediate transfer position and the release position of at least one of the plurality of intermediate transfer rollers. 3. The method of claim 2,
The plurality of intermediate transfer rollers include a first intermediate transfer roller for black-and-white printing and a plurality of second intermediate transfer rollers for color printing,
and the shutter is moved to the open position and the closed position in association with the movement of the first intermediate transfer roller to the intermediate transfer position and the release position. 3. The method of claim 2,
The plurality of intermediate transfer rollers include a first intermediate transfer roller for black-and-white printing and a plurality of second intermediate transfer rollers for color printing,
The first intermediate transfer roller is located at the intermediate transfer position,
the plurality of second intermediate transfer rollers are movable to the intermediate transfer position and the release position;
and the shutter is moved to the open position and the closed position in association with the movement of the plurality of second intermediate transfer rollers to the intermediate transfer position and the release position. According to claim 1,
and the storage unit includes a first storage unit located downstream of the cleaning member with respect to a traveling direction of the intermediate transfer belt. 6. The method of claim 5,
and the storage unit includes a second storage unit located upstream of the cleaning member with respect to a traveling direction of the intermediate transfer belt. 6. The method of claim 5,
and a flexible sealing member contacting the inner surface of the intermediate transfer belt at a downstream side of the storage unit with respect to the running direction of the intermediate transfer belt. 8. The method of claim 7,
The cleaning member and the sealing member are mounted on the shutter. a plurality of photosensitive drums on which toner images are formed;
an intermediate transfer belt to which the toner image is transferred;
a plurality of intermediate transfer rollers positioned to face the plurality of photosensitive drums with the intermediate transfer belt interposed therebetween;
According to the printing mode, at least one of the plurality of intermediate transfer rollers is pressed into an intermediate transfer position by pressing the intermediate transfer belt to contact the plurality of photosensitive drums to form an intermediate transfer nip and to a release position for releasing the intermediate transfer nip. a print mode switching unit for switching;
a cleaning member contacting the inner surface of the intermediate transfer belt to remove foreign substances;
a storage member having a storage unit for accommodating the foreign material;
and a shutter movable to an open position for opening the storage unit and a closed position for closing the storage unit by the print mode switching unit. 10. The method of claim 9,
The plurality of intermediate transfer rollers include a first intermediate transfer roller for black-and-white printing and a plurality of second intermediate transfer rollers for color printing,
The print mode switching unit includes a cam member, a first moving member connected to the cam member to move the first intermediate transfer roller, and a second moving member for moving the plurality of second intermediate transfer rollers,
The shutter is connected to the first moving member to move to the open position and the closed position. 10. The method of claim 9,
The plurality of intermediate transfer rollers include a first intermediate transfer roller for black-and-white printing and a plurality of second intermediate transfer rollers for color printing,
The print mode switching unit includes a cam member and a moving member connected to the cam member to move the plurality of second intermediate transfer rollers,
The shutter is connected to the movable member to move to the open position and the closed position. 10. The method of claim 9,
and the storage unit includes a first storage unit located downstream of the cleaning member with respect to a traveling direction of the intermediate transfer belt. 13. The method of claim 12,
and the storage unit includes a second storage unit located upstream of the cleaning member with respect to a traveling direction of the intermediate transfer belt. 13. The method of claim 12,
and a flexible sealing member contacting the inner surface of the intermediate transfer belt at a downstream side of the storage unit with respect to the running direction of the intermediate transfer belt. 15. The method of claim 14,
The cleaning member and the sealing member are mounted on the shutter.

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